CN204940369U - A kind of monitoring of underground structure and regulating system - Google Patents
A kind of monitoring of underground structure and regulating system Download PDFInfo
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- CN204940369U CN204940369U CN201520622731.XU CN201520622731U CN204940369U CN 204940369 U CN204940369 U CN 204940369U CN 201520622731 U CN201520622731 U CN 201520622731U CN 204940369 U CN204940369 U CN 204940369U
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- underground structure
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Abstract
The utility model discloses a kind of monitoring and regulating system of underground structure, it is characterized in that, comprise connect successively sensing system, Data acquisition and transmit system, data processing and management system, assess and control system and regulating system: described sensing system comprises the many groups sensor be distributed in underground structure and its surrounding soil; Described Data acquisition and transmit system is provided with Signal-regulated kinase, data acquisition module and data communication module, receives each sensor and sends signal, and image data is transferred to data processing and management system; Described data processing and management system are provided with data processing module, data disaply moudle and data communication module, and the data after process are transferred to assessment and control system; Described regulating system comprises multiple displacement governor be arranged between underground structure and pile foundation, and described displacement governor is connected with control system with described assessment, receives and performs the regulating command assessed and issue according to assessment result with control system.
Description
Technical field
The utility model relates to earthwork engineering technical field, is specially a kind of monitoring and regulating system of underground structure.
Background technology
Underground structure is comparatively large by the impact of surrounding soil, and the change of external condition can cause the soil body to react, such as train vibration, earthquake, seepage action of ground water etc., thus causes underground structure that corresponding change occurs.Increasing along with urban space structure, its engineering safety also progressively comes into one's own, can the safe condition of effective predictive engine by rational monitoring means, to reduce the generation even avoiding accident.
Utility model content
Technical purpose of the present utility model is the monitoring and the regulating system that propose a kind of underground structure, can monitor underground structure and its surrounding soil simultaneously, understands the dynamic in real time of soil-underground structure system, dynamically regulates underground structure simultaneously for this.
For realizing above-mentioned technical purpose, technical scheme disclosed in the utility model is:
The monitoring of underground structure and a regulating system, is characterized in that, comprise connect successively sensing system, Data acquisition and transmit system, data processing and management system, assess and control system and regulating system:
Described sensing system comprises the many groups sensor be distributed in underground structure and its surrounding soil;
Described Data acquisition and transmit system is provided with Signal-regulated kinase, data acquisition module and data communication module, receives each sensor and sends signal, and image data is transferred to data processing and management system;
Described data processing and management system are provided with data processing module, data disaply moudle and data communication module, are connected with described Data acquisition and transmit system communication, and the data after process are transferred to assessment and control system;
Described regulating system comprises multiple displacement governor be arranged between underground structure and pile foundation, and described displacement governor is connected with control system with described assessment, receives and performs the regulating command assessed and issue according to assessment result with control system.
Further, described sensing system comprises:
Distributing installation, on underground structure, locality descends many groups sensor of structural strain, stress, acceleration or displacement information respectively;
Be distributed in underground structure surrounding soil, gather many groups sensor of soil body acceleration, pore water pressure force information respectively.
Preferred arrangement is:
By locality descending the lateral surface that the sensor location of structural stress information is arranged on underground structure top board, side plate contacts with the soil body, preferably adopt optical fiber stress sensor;
By the medial surface locality descending the sensor location of structure acceleration information to be arranged on underground structure top board, base plate and side plate, preferably adopt optical fiber acceleration transducer;
The lateral surface being arranged on underground structure bottom plate by locality descending the sensor location of displacement structure information and contacting with the soil body, preferably adopts optical fibre displacement sensor;
By locality descending the sensor location of structural strain information to be arranged on underground structure top board, base plate, the inside and outside side of side plate and the supporting member of underground structure inside, preferably adopt fiber Bragg grating strain sensor.
Be arranged on sensor setting in the soil body above underground structure and side, preferably adopt pore water pressure sensor and optical fiber acceleration transducer.
The sensor group of collection soil body pore water pressure force information, the sensor group of collection soil body acceleration information are formed by multiple sensor column, and described multiple sensor column is arranged in around underground structure by the form of outwards dispersing centered by underground structure.
The monitoring of above-mentioned a kind of underground structure and the work progress of regulating system are:
A) excavation pit;
B) bottom foundation ditch, pile foundation is squeezed into;
C) at pile foundation top, displacement governor is installed;
D) construction underground structure bottom plate part;
E) lateral surface contacted with the soil body at underground structure bottom plate installs strain transducer, displacement transducer; At base plate medial surface, strain transducer, acceleration transducer are installed;
F) hole in the soil body of foundation ditch sidepiece, in aperture, put into pore water pressure, acceleration transducer;
G) plate portion of construction underground structure;
H) lateral surface contacted with the soil body at side plate installs strain transducer, strain gauge; In side plate interior sides face, acceleration transducer is installed;
I) to construct the supporting members such as underground structure center pillar;
J) on the supporting members such as center pillar, strain transducer is installed;
K) construction underground structure top board;
L) lateral surface contacted with the soil body at top board installs strain transducer, strain gauge; At top board medial surface, acceleration transducer is installed;
M) cover banket, in process of banketing, pore water pressure, acceleration transducer are installed in the soil body, make it and step f) in sensor arrange according to predetermined manner;
In above-mentioned steps, described predetermined manner be some sensors of the same race in one line in column after, multiple sensor column of the same race is outwards divergently arranged in top and the side of underground structure centered by underground structure.
The utility model monitoring can be implemented jointly to monitor to underground structure and the soil body with regulating system, by grasping geology situation of change to the monitoring of the soil body, thus predicts that it is to underground structure influence, to take appropriate measures in advance; For the monitoring of underground structure itself, the changing features of underground structure can be understood in time, and analyze various factors to the influence degree of underground structure durability.After each sensor Information Monitoring is assessed, then regulated by the displacement regulating system bottom underground structure according to assessment result, alleviate the adverse effect such as floating, sinking, torsion that underground structure produces.
Accompanying drawing explanation
Fig. 1 is structure and working principle schematic diagram of the present utility model;
Fig. 2 is the construction process figure of the utility model monitoring and regulating system;
Fig. 3 is the distributing installation schematic diagram of fiber Bragg grating strain sensor on underground structure;
Fig. 4 is the distributing installation schematic diagram of optical fiber acceleration transducer on underground structure;
Fig. 5 is the distributing installation schematic diagram of optical fiber stress sensor on underground structure;
Fig. 6 is the distributing installation schematic diagram of optical fibre displacement sensor on underground structure;
Fig. 7 is displacement governor mounting structure schematic diagram;
Fig. 8 is the distribution schematic diagram of pore water pressure sensor in the soil body;
Fig. 9 is the distribution schematic diagram of optical fiber acceleration transducer in the soil body;
Figure 10 is floor shifting monitored data figure in an embodiment;
Figure 11 is that in an embodiment, each optical fiber stress sensor detects datagram.
Detailed description of the invention
In order to illustrate the technical solution of the utility model and technical purpose, below in conjunction with drawings and the specific embodiments, the utility model is described further.
As shown in Figure 1, a kind of monitoring of underground structure and regulating system, comprise connect successively sensing system, Data acquisition and transmit system, data processing and management system, assess and the ingredient such as control system and oil hydraulic type regulating system.
Described underground structure 1 forms peripheral frame by top board, base plate, side plate, and inside is also provided with the supporting members such as center pillar.
Described sensing system comprises the many groups sensor be distributed in underground structure 1 and its surrounding soil, comprises the many groups sensor locality descending structural strain, stress, acceleration, displacement information and gather soil body acceleration, pore water pressure force information.
In an embodiment as shown in Fig. 3 to 6:
Locality descend fiber Bragg grating strain sensor 9 distributing installation of structural strain information on the inside and outside side of underground structure top board, base plate, side plate and the supporting member of underground structure inside;
Locality descend the medial surface of optical fiber acceleration transducer 8 distributing installation at underground structure top board, base plate and side plate of structure acceleration information;
Locality descend the lateral surface that optical fiber stress sensor 7 distributing installation of structural stress information contacts with the soil body at underground structure top board, side plate;
Locality descend the lateral surface that optical fibre displacement sensor 6 distributing installation of displacement structure information contacts with the soil body at underground structure bottom plate.
The sensor be arranged in the soil body is then arranged in top and the side of underground structure, as shown in Figure 8, Figure 9, some pore water pressure sensors 5, optical fiber acceleration transducer 4 equi-spaced apart, formation sensor column in one line, multiple sensor columns of same type form the sensor group gathering a kind of information.These sensor columns preferably adopt the form of outwards dispersing centered by underground structure 1 to be arranged in around underground structure 1.
Described Data acquisition and transmit system is provided with Signal-regulated kinase, data acquisition module and data communication module etc., each sensor is sent signal and carries out amplifying, filtering and analog-to-digital conversion in Signal-regulated kinase.Described data acquisition module is connected with Signal-regulated kinase, according to pre-set control programs sampling, after the data gathered are stored filing, by communication module, filing data is sent to data processing and management system.
Described data processing and management system are provided with data processing module, data disaply moudle and data communication module, complete in data processing module the pretreatment of initial data received (to noise data point, discrete point, carry out identifying and deleting, solve indivedual inconsistencies of data with this) and after-treatment (to pretreated data analysis, the variation tendency of research and application data and data catastrophe, change shape for assessment of underground structure) etc., initial data, data after process and other data or parameter show by data disaply moudle, check for staff.
Described assessment is connected with management system with control system and described data processing, receive the data after process, and complete in systems in which whether underground structure is deformed, the assessment of each item such as displacement and safety, durability, Comprehensive Assessment, and generate regulating command according to assessment result, controlling and regulating system operates, to slow down the adverse effect such as floating, sinking or torsion that underground structure produces.
Described oil hydraulic type regulating system comprises multiple displacement governor 2 be arranged between underground structure 1 and pile foundation 3, and described displacement governor 2 is connected with control system with described assessment, receives and performs the regulating command assessed and issue with control system.
Work progress is as follows:
A) excavation pit;
B) bottom foundation ditch, pile foundation 2 is squeezed into;
C) at pile foundation top, displacement governor 3 is installed;
D) construction underground structure bottom plate part;
E) in base plate corresponding position, acceleration, displacement, strain transducer are installed;
F) hole in the soil body of foundation ditch sidepiece, in aperture, put into part pore water pressure, acceleration transducer according to the arrangement mode preset;
G) plate portion of underground structure is used;
H) in side plate relevant position, acceleration, stress, strain transducer are installed;
I) to construct the supporting members such as underground structure center pillar;
J) on the supporting members such as center pillar, strain transducer is installed;
K) construction underground structure top board;
L) in top board corresponding position, acceleration, stress, strain transducer are installed;
M) cover banket, in process of banketing, remaining pore water pressure, acceleration transducer are installed in the soil body, make it and step f) in sensor according to preset mode arrange.
The utility model, by laying optical fiber acceleration transducer 8 and fiber Bragg grating strain sensor 9 on underground structure 1, can monitor acceleration response and the strain responses of underground structure, understands the change whether underground structure there occurs intensity, distortion and stability; By laying optical fiber strain gauge 7 on the contact surface of underground structure top, sidepiece and the soil body, the contact performance between soil and underground structure can be monitored, understand the phenomenon whether slippage and disengaging occur between soil and underground structure; By the bottom laying optical fiber displacement transducer 6 at underground structure, can monitor settlement of underground structure change, whether understanding underground structure there is the torsion phenomenon because differential settlement causes.
Installed according to position as shown in Figure 7 by displacement governor 3 in underground structure building process, in Fig. 4, Fig. 5, P1-P13 is each monitoring point of optical fiber stress sensor 7, and A1-A5 is each test point of optical fibre displacement sensor 6.After having constructed, underground structure is in initial equilibrium conditions, collects the corresponding data of now each sensor, then starts the daily monitoring to underground structure.
In an embodiment as shown in Figure 10,11:
Underground structure bottom plate position monitoring point image data as shown in Figure 10, display underground structure there occurs differential settlement, monitoring result (Figure 11) known base plate sedimentation maximum value further combined with optical fibre displacement sensor has reached warning value 2mm, simultaneously cause the contact value of P4, P5, P10 obviously bigger than normal according to the monitoring result of top board, side plane contact pressure is known due to differential settlement, explanatorily descend structural entity to be tilted to the right.Now carry out structure lifting by displacement governor, control at 1mm by the settling amount of A3, A4, A5, to reduce differential settlement, monitor the change of underground structure strain measuring point in lifting process, the change of strain measuring point should control within 100 μ ε.
More than show and describe general principle of the present utility model, principal character and advantage of the present utility model.The technician of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and manual just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and the claimed scope of the utility model is defined by appending claims, manual and equivalent thereof.
Claims (6)
1. the monitoring of underground structure and a regulating system, is characterized in that, comprise connect successively sensing system, Data acquisition and transmit system, data processing and management system, assess and control system and regulating system:
Described sensing system comprises the many groups sensor be distributed in underground structure and its surrounding soil;
Described Data acquisition and transmit system is provided with Signal-regulated kinase, data acquisition module and data communication module, receives each sensor and sends signal, and image data is transferred to data processing and management system;
Described data processing and management system are provided with data processing module, data disaply moudle and data communication module, are connected with described Data acquisition and transmit system communication, and the data after process are transferred to assessment and control system;
Described regulating system comprises multiple displacement governor be arranged between underground structure and pile foundation, and described displacement governor is connected with control system with described assessment, receives and performs the regulating command assessed and issue according to assessment result with control system.
2. the monitoring of a kind of underground structure according to claim 1 and regulating system, it is characterized in that, described sensing system comprises:
Distributing installation, on underground structure, locality descends many groups sensor of structural strain, stress, acceleration or displacement information respectively;
Be distributed in underground structure surrounding soil, gather many groups sensor of soil body acceleration, pore water pressure force information respectively.
3. the monitoring of a kind of underground structure according to claim 2 and regulating system, is characterized in that:
Locality descend the lateral surface that the sensor location of structural stress information is arranged on underground structure top board, side plate contacts with the soil body;
The sensor location of structure acceleration information is locality descended to be arranged on the medial surface of underground structure top board, base plate and side plate;
The lateral surface locality descending the sensor location of displacement structure information to be arranged on underground structure bottom plate to contact with the soil body;
The sensor location of structural strain information is locality descended to be arranged on underground structure top board, base plate, the inside and outside side of side plate and the supporting member of underground structure inside.
4. the monitoring of a kind of underground structure according to claim 2 and regulating system, it is characterized in that, the sensor of distributing installation on underground structure comprises fiber Bragg grating strain sensor, optical fiber acceleration transducer, optical fiber stress sensor, optical fibre displacement sensor; The sensor be distributed in the soil body comprises pore water pressure sensor and optical fiber acceleration transducer.
5. the monitoring of a kind of underground structure according to claim 3 or 4 and regulating system, is characterized in that, is arranged on sensor setting in the soil body above underground structure and side.
6. the monitoring of a kind of underground structure according to claim 5 and regulating system, it is characterized in that, the sensor group of collection soil body pore water pressure force information, the sensor group of collection soil body acceleration information are formed by multiple sensor column, and described multiple sensor column is arranged in around underground structure by the form of outwards dispersing centered by underground structure.
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CN201520622731.XU CN204940369U (en) | 2015-08-18 | 2015-08-18 | A kind of monitoring of underground structure and regulating system |
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CN201520622731.XU CN204940369U (en) | 2015-08-18 | 2015-08-18 | A kind of monitoring of underground structure and regulating system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105155597A (en) * | 2015-08-18 | 2015-12-16 | 金陵科技学院 | Monitoring and adjusting system for underground structure and construction method for monitoring and adjusting system |
CN106149769A (en) * | 2016-06-27 | 2016-11-23 | 苏交科集团股份有限公司 | Gravity type quay pile foundation construction is remotely monitored and analytical equipment |
-
2015
- 2015-08-18 CN CN201520622731.XU patent/CN204940369U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105155597A (en) * | 2015-08-18 | 2015-12-16 | 金陵科技学院 | Monitoring and adjusting system for underground structure and construction method for monitoring and adjusting system |
CN106149769A (en) * | 2016-06-27 | 2016-11-23 | 苏交科集团股份有限公司 | Gravity type quay pile foundation construction is remotely monitored and analytical equipment |
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Granted publication date: 20160106 Termination date: 20180818 |
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CF01 | Termination of patent right due to non-payment of annual fee |